Oxygen reserve and depletion: There is an approximately 20% reduction in expiratory reserve volume, residual volume, and functional residual capacity (FRC), and an increased maternal basal metabolic rate and oxygen demand by the fetal unit. These changes lead to more rapid desaturation of the fully preoxygenated pregnant woman during apnea (approximately 3 minutes compared to 8 for the normal non-pregnant adult).

Physiologic hyperventilation: Progesterone increases the ventilatory drive and leads to hyperventilation. Maternal minute ventilation increases early in pregnancy largely because of an increase in tidal volume. This results in alteration of “normal” blood gas parameters, which must be considered when managing mechanical ventilation. Maternal PaCO₂ falls to approximately 32 mm Hg, which is associated with a compensatory decrease in bicarbonate from 26 to 22 mEq per L in order to maintain a normal maternal pH. Mechanical ventilation must provide some degree of hyperventilation in order to maintain maternal pH. A reasonable approach is to increase the minute ventilation by approximately 20% for the pregnant woman in the first trimester, increasing to 40% by term.

Cardiopulmonary compromise in late pregnancy: In the late stages of pregnancy when the patient is placed supine, the effects of the gravid uterus on the diaphragm and, occasionally, increased breast size on the chest wall, further decrease the FRC. In addition to decreasing FRC, supine positioning in the late second and third trimester of pregnancy can result in aortocaval compression by the gravid uterus. This significantly reduces blood return to the heart, impairing maternal and fetal perfusion. This can be mitigated to a certain degree by placing the patient in the left lateral decubitus position.

Effects on laryngoscopy and bag-mask ventilation (BMV): Pregnancy also can affect laryngoscopy and BMV. Weight gain, greater resistance to chest expansion by abdominal contents, and increased breast size may make BMV difficult in a manner analogous to that seen with an obese patient. The effects of estrogen and increased blood volume contribute to mucosal edema of the nasal passages and pharynx causing airway tissues to become redundant, friable, and more prone to bleeding, especially with airway manipulation. This mucosal edema can also lead to distortion of the airway structures, leading to difficulty both in identifying structures and in passing the endotracheal tube through the upper airway to the glottis. This upper airway distortion can be worsened by preeclampsia, active labor with pushing, and the infusion of large volumes of crystalloid fluids. Vascular engorgement also leads to a decrease in luminal size in the trachea requiring a smaller than expected endotracheal tube (6.5 to 7.0 on average). The engorged upper airway tissues also can make BMV more difficult.

Increased propensity for aspiration: As pregnancy progresses, gastric acid secretion increases, causing a decrease in maternal gastric pH as well as an increase in gastrin levels, a reduction in gastric activity, and an increase in gastric emptying time that can result in an increase in resting gastric volume. Gastroesophageal sphincter tone is also reduced in pregnancy. Enlargement of the uterus increases the pressure exerted on the stomach, which combined with a reduction in gastroesophageal sphincter tone, increases the risk of reflux. A “full stomach” should always be a concern in these patients. Administration of neuromuscular blockade will exacerbate this further by causing a loss of supporting abdominal muscle tone. These normal changes in gastrointestinal physiology start early in the second trimester but become most problematic in the mid to late second and third trimesters.

Effects on neuromuscular blocking agents: Maternal plasma cholinesterase activity is reduced by 25%; however, this does not result in any significant effects on elimination, half-life, or duration of effect of succinylcholine. Pregnancy, however, does result in enhanced sensitivity to the aminosteroid muscle relaxants such as vecuronium and rocuronium which may prolong their effect.